Wen‐Tao Hou

710 total citations
25 papers, 428 citations indexed

About

Wen‐Tao Hou is a scholar working on Molecular Biology, Oncology and Materials Chemistry. According to data from OpenAlex, Wen‐Tao Hou has authored 25 papers receiving a total of 428 indexed citations (citations by other indexed papers that have themselves been cited), including 10 papers in Molecular Biology, 9 papers in Oncology and 4 papers in Materials Chemistry. Recurrent topics in Wen‐Tao Hou's work include Drug Transport and Resistance Mechanisms (8 papers), Cholesterol and Lipid Metabolism (3 papers) and Lipid Membrane Structure and Behavior (3 papers). Wen‐Tao Hou is often cited by papers focused on Drug Transport and Resistance Mechanisms (8 papers), Cholesterol and Lipid Metabolism (3 papers) and Lipid Membrane Structure and Behavior (3 papers). Wen‐Tao Hou collaborates with scholars based in China, Hong Kong and Australia. Wen‐Tao Hou's co-authors include Cong‐Zhao Zhou, Yuxing Chen, Xingchen Ye, Shaojun Fu, Bingsen Zhang, Yanbo Xie, Yong‐Liang Jiang, Zhipeng Chen, Liang Wang and Da Xu and has published in prestigious journals such as Proceedings of the National Academy of Sciences, Nature Communications and The EMBO Journal.

In The Last Decade

Wen‐Tao Hou

24 papers receiving 421 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Wen‐Tao Hou China 12 153 106 88 67 36 25 428
Hyun-Jae Lee South Korea 13 281 1.8× 73 0.7× 126 1.4× 58 0.9× 29 0.8× 39 563
Meixin Li China 12 193 1.3× 81 0.8× 24 0.3× 104 1.6× 24 0.7× 47 492
Toshihiro Aoyama Japan 14 167 1.1× 127 1.2× 38 0.4× 49 0.7× 14 0.4× 37 506
Jiakang Chen China 15 158 1.0× 152 1.4× 54 0.6× 213 3.2× 8 0.2× 38 619
Harald Berchtold Germany 12 567 3.7× 136 1.3× 27 0.3× 44 0.7× 77 2.1× 17 860
Zhen Hu China 14 345 2.3× 102 1.0× 111 1.3× 87 1.3× 20 0.6× 28 627
Simon Caserman Slovenia 12 130 0.8× 66 0.6× 29 0.3× 13 0.2× 12 0.3× 29 344
Jiacheng Zhang China 14 269 1.8× 74 0.7× 25 0.3× 27 0.4× 17 0.5× 52 621
Henriette Christensen Denmark 10 303 2.0× 100 0.9× 24 0.3× 55 0.8× 38 1.1× 11 611
Ilaria Armenia Spain 13 201 1.3× 94 0.9× 13 0.1× 34 0.5× 10 0.3× 19 513

Countries citing papers authored by Wen‐Tao Hou

Since Specialization
Citations

This map shows the geographic impact of Wen‐Tao Hou's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Wen‐Tao Hou with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Wen‐Tao Hou more than expected).

Fields of papers citing papers by Wen‐Tao Hou

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Wen‐Tao Hou. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Wen‐Tao Hou. The network helps show where Wen‐Tao Hou may publish in the future.

Co-authorship network of co-authors of Wen‐Tao Hou

This figure shows the co-authorship network connecting the top 25 collaborators of Wen‐Tao Hou. A scholar is included among the top collaborators of Wen‐Tao Hou based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Wen‐Tao Hou. Wen‐Tao Hou is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Wang, Liang, Da Xu, Zhipeng Chen, et al.. (2025). Structural insights into human ABCA7-mediated lipid transport. Structure. 33(3). 583–593.e5. 2 indexed citations
2.
Yang, Yihang, Zhikang Shen, Wen‐Tao Hou, et al.. (2025). Role of Zinc Interlayer Reactions on Mechanical Performance of Al/Mg Dissimilar Refill Friction Stir Spot Welds. JOM. 78(2). 1291–1303.
3.
Huang, Guoqiang, Tao Sun, Fanqiang Meng, et al.. (2024). Microstructural evolution and wear behavior of friction stir processed L12 strengthened AlFeCrCuNi-type high-entropy alloy. Materials Characterization. 216. 114250–114250. 27 indexed citations
4.
Li, Bo, Xiaoqian Wang, Da Xu, et al.. (2024). Allosteric regulation of nitrate transporter NRT via the signaling protein PII. Proceedings of the National Academy of Sciences. 121(11). e2318320121–e2318320121. 4 indexed citations
5.
Li, Yang, Zhipeng Chen, Da Xu, et al.. (2024). Structural insights into human ABCD3-mediated peroxisomal acyl-CoA translocation. Cell Discovery. 10(1). 92–92. 1 indexed citations
6.
Chen, Zhipeng, et al.. (2024). Transport mechanism of human bilirubin transporter ABCC2 tuned by the inter-module regulatory domain. Nature Communications. 15(1). 1061–1061. 11 indexed citations
7.
Li, Xu, Fangfang Wang, Liang Wang, et al.. (2023). Placing steroid hormones within the human ABCC3 transporter reveals a compatible amphiphilic substrate‐binding pocket. The EMBO Journal. 42(17). e113415–e113415. 13 indexed citations
8.
Wang, Liang, et al.. (2023). Structural insights into human ABCC4-mediated transport of platelet agonist and antagonist. Nature Cardiovascular Research. 2(7). 693–701. 12 indexed citations
9.
Chen, Zhipeng, et al.. (2022). Structural insights into the activation of autoinhibited human lipid flippase ATP8B1 upon substrate binding. Proceedings of the National Academy of Sciences. 119(14). e2118656119–e2118656119. 27 indexed citations
10.
11.
Chen, Zhipeng, Da Xu, Liang Wang, et al.. (2022). Structural basis of substrate recognition and translocation by human very long-chain fatty acid transporter ABCD1. Nature Communications. 13(1). 3299–3299. 21 indexed citations
12.
Xu, Da, Yanyan Li, Fengrui Yang, et al.. (2022). Structure and transport mechanism of the human cholesterol transporter ABCG1. Cell Reports. 38(4). 110298–110298. 29 indexed citations
13.
Liu, Xiaoyu, Wen‐Tao Hou, Liang Wang, et al.. (2021). Structures of cyanobacterial bicarbonate transporter SbtA and its complex with PII-like SbtB. Cell Discovery. 7(1). 63–63. 25 indexed citations
14.
Tang, Zhen, Xinghui Wei, Li Tian, et al.. (2021). Three-Dimensionally Printed Ti2448 With Low Stiffness Enhanced Angiogenesis and Osteogenesis by Regulating Macrophage Polarization via Piezo1/YAP Signaling Axis. Frontiers in Cell and Developmental Biology. 9. 750948–750948. 47 indexed citations
15.
Chen, Li, Wen‐Tao Hou, Tao Fan, et al.. (2020). Cryo-electron Microscopy Structure and Transport Mechanism of a Wall Teichoic Acid ABC Transporter. mBio. 11(2). 36 indexed citations
16.
Guo, Cong, Zhang Feng, Gang Zuo, et al.. (2020). Structural and functional insights into the Asp1/2/3 complex mediated secretion of pneumococcal serine-rich repeat protein PsrP. Biochemical and Biophysical Research Communications. 524(3). 784–790. 1 indexed citations
17.
Cao, Dongdong, Chunpeng Zhang, Kang Zhou, et al.. (2019). Structural insights into the catalysis and substrate specificity of cyanobacterial aspartate racemase McyF. Biochemical and Biophysical Research Communications. 514(4). 1108–1114. 8 indexed citations
18.
Hou, Wen‐Tao, et al.. (2018). Structure of a MacAB-like efflux pump from Streptococcus pneumoniae. Nature Communications. 9(1). 196–196. 34 indexed citations
19.
20.
Hou, Wen‐Tao, Wenzhe Li, Yuxing Chen, Yong‐Liang Jiang, & Cong‐Zhao Zhou. (2013). Structures of Yeast Apa2 Reveal Catalytic Insights into a Canonical Ap4A Phosphorylase of the Histidine Triad Superfamily. Journal of Molecular Biology. 425(15). 2687–2698. 7 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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